Parametric Channel Estimation for Pseudo-Random User-Allocation in Uplink OFDMA

Eldar, Lior; Raghavendra, M R; Bhashyam, Srikrishna; Bercovich, Ron; Kim, Yun Hee

doi:10.1109/icc.2006.255270

2006 IEEE International Conference on Communications 2006

DOI: 10.1109/icc.2006.255270

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Parametric Channel Estimation for Pseudo-Random User-Allocation in Uplink OFDMA

Lior Eldar

M R Raghavendra

Srikrishna Bhashyam

et al.

Abstract: Abstract-In this work, we present an algorithm for parametric estimation of a wireless channel for OFDMA transmission, tailored to the pseudo-random "tile" allocation pattern prevalent in multi-user allocation schemes 1 . Such tile allocations are usually common in the uplink where a tile is usually a small number of adjacent data subcarriers with a few pilot subcarriers. The algorithm estimates the delay subspace of the parametric channel description, and shows robustness for high RMS delay-spread channels. T… Show more

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2007

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Parametric Channel Estimation in Reuse-1 OFDM Systems

Raghavendra

Bhashyam

Kim

2007

2007 IEEE International Conference on Communications

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Abstract-We propose an improved channel estimator for reuse-1 orthogonal frequency division multiplexing (OFDM) cellular systems 1 . The proposed channel estimation technique exploits delay subspace structure in reducing the interference on channel estimation. The proposed pilot-based channel estimation technique initially estimates the multipath delay locations of both the desired and interference channels. In estimating multipath delays, we assume that the time-of-flight difference between the desired and interfering signals ensures that the multipath delay locations of the corresponding channels are distinct. This information is used to suppress interference in the multipathdelay domain, and define a channel interpolator with a lower normalized mean squared error (NMSE) when compared to the conventional modified least-squares technique (mLS). We also derive the analytical expression for the bit-error-rate of a zeroforcing (ZF) receiver based on the proposed channel estimator. In particular, we show that for uncoded OFDM, the match between the estimated BER and analytical BER is very good and the proposed estimator can outperform mLS by more than a order of magnitude in BER if the interference on the data subcarriers is significantly lower than the interference seen on the pilot subcarriers. Simulation results are also presented with turbo-coded OFDM which further demonstrates the efficacy of the proposed algorithm.

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Parametric Channel Estimation in Reuse-1 OFDM Systems

Raghavendra

Bhashyam

Kim

2007

2007 IEEE International Conference on Communications

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Parametric Channel Estimation for Pseudo-Random User-Allocation in Uplink OFDMA

Cited by 1 publication

References 30 publications

Parametric Channel Estimation in Reuse-1 OFDM Systems

Parametric Channel Estimation in Reuse-1 OFDM Systems

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